On strain localization analysis of elastoplastic materials at finite strains

This paper puts forward a finite strain formulation based on the (i) thermodynamics of non-associated materials, (ii) logarithmic strain measures and corotational rates, and (iii) numerical procedures of gradient split and return mapping. Unlike most of the existing finite strain formulations which

Hill's anisotropic formulation of the flow rule is extended so as to fit in the realm of multiplicative finite strain plasticity. The anisotropic Hill-type yield criterion is formulated in terms of purely material quantities. The list of arguments of the flow function includes a non-symmetric materi

Several thermodynamically consistent isotropic elastoplastic models at finite strains, that are based on the multiplicative decomposition of the total deformation gradient, are analyzed and compared. It occurs that some of them, that are often used in numerical calculations and cited in literature,

This paper formulates and implements a finite deformation theory of bifurcation of elastoplastic solids to planar bands within the framework of multiplicative plasticity. Conditions for the onset of strain localization are based on the requirement of continuity of the nominal traction vector, and ar